The electronics we throw away are catching fire in trucks and recycling centers when lithium-ion batteries explode

MADISON, Wis. — What happens to gadgets when you’re done with them? Too often, they explode.

As we enter new-gadget buying season, spare a moment to meet the people who end up handling your old stuff. Isauro Flores-Hernandez, who takes apart used smartphones and tablets for a living, keeps thick gloves, metal tongs and a red fireproof bin by his desk here at Cascade Asset Management, an electronics scrap processor. He uses them to whisk away devices with batteries that burst into flames when he opens them for recycling.

One corner of his desk is charred from an Apple iPhone that began smoking and then exploded after he opened it in 2016. Last year, his co-worker had to slide away an exploding iPad battery and evacuate the area while it burned out.

The remains of a used iPad battery that caught fire at the Cascade recycling center in 2017 after it was punctured while attempting to pry the device apart to remove the battery. (Aaron Piotrzkowski)

Around the world, garbage trucks and recycling centers are going up in flames. The root of the problem: volatile lithium-ion batteries sealed inside our favorite electronics from Apple, Samsung, Microsoft and more. They’re not only dangerous but also difficult to take apart — making e-waste less profitable, and contributing to a growing recycling crisis.

For all their benefits at making our devices slim, powerful and easy to recharge, lithium-ion batteries have some big costs. They contain Cobalt, often mined in inhumane circumstances in places like the Congo. And when crushed, punctured, ripped or dropped, lithium-ion batteries can produce what the industry euphemistically calls a “thermal event.” It happens because these batteries short circuit when the super-thin separator between their positive and negative parts gets breached. Remember Samsung’s exploding Note 7 smartphone? That was a lithium-ion thermal event.

How easy is it for a lithium-ion battery to catch fire? This demonstration by RethinkWaste, a local waste management authority in California’s Silicon Valley, shows what happens when a battery gets crushed. (RethinkWaste/SBWMA)

Statistically, the fire rates are low — 1 out of 3,000 mobile device batteries that Cascade handles experiences a thermal event. But when batteries spark other material, the result can be catastrophic. In 2016, the Shoreway Environmental Center that serves Silicon Valley suffered a 4-alarm fire it suspects was caused by a lithium-ion battery that went undetected amid other junk in its sorting systems. The fire damage cost $8.5 million.

There’s plenty of blame to go around. People shouldn’t carelessly throw battery-powered electronics into the bin. (Here’s what you should do.) Local governments haven’t figured out good ways for us to hand off of this common but dangerous material. The tech press (including me) should write less about shiny new things and more about how to make old stuff last longer. Some gadget makers, including Apple, are taking steps to make recycling easier.

But ultimately, this is an environmental problem of the tech industry’s own design. And it’s time they own it.

The surveillance footage, sped up 1.5 times, shows the beginning of the lithium-ion battery fire in a sorting machine at the Shoreway Environmental Center in California, leading to $8.5 million in damage. (RethinkWaste/SBWMA)

How to recycle an iPad without it catching fire

It’s bad enough that lithium-ion batteries are dangerous. But often, gadgets designed to be thin and portable make the batteries especially difficult to remove.

That’s easier said than done with some of our favorite mobile devices. Out of his stack of used tablets, Flores-Hernandez shows me a 6-year-old iPad with a shattered screen. Before it could be sent to a shredder, which separates the materials that can be melted down, he has to get out the battery — by hand.

I should have taken a seat — the process took 40 minutes. To get to the battery, first Flores-Hernandez has to remove the electronics on top of it. Step one: He puts the iPad on a 100-degree heating plate for about four minutes to loosen glue that adheres the screen. Then off comes broken glass, the screen and dozens of tiny screws.

There’s no indication Apple products are more likely to catch fire than other devices (though Cascade says they’ve been the source of all their fires since 2015). But iPads are more difficult to take apart. “On a scale of 1 to 10, I would say this is an 8 or 9,” says Flores-Hernandez.

He learned how to do this through a training program from iFixit, an online repair community. Apple and many other manufacturers don’t provide instructions or analysis software to recyclers like Cascade. Handling this stuff is tricky even for its makers: Apple stores in Switzerland, Spain and the Netherlands have all experienced battery fires in 2018.

About 30 minutes into iPad surgery comes the most delicate part: prying out the battery glued to the back of the iPad. After heating the iPad again to loosen glue, he uses a series of plastic squeegees to nudge the battery — as flat as a plastic comb and almost as wide as the iPad — out bit by bit.

It’s more than just a safety issue, says Cascade’s CEO Neil Peters-Michaud. Gluing components together and hiding the batteries also makes recycling less profitable. For the training, safety precautions and effort that went into removing that iPad battery, Cascade will make about 50 cents to $1 in commodities. “Labor and time are money,” Peters-Michaud says.

“I just don’t understand why Apple doesn’t include design features that its users and the reuse-and-recycling community can benefit from to extend the life of their products safely,” he says.

The risk is that devices like old iPads could become unrecyclable, at least in economic terms, for scrap companies that aren’t getting paid some other way. Today, firms can still make money by reselling iPads. But who’s going to process all the old iPads currently marooned in drawers, losing their market value?

“We are reaching the pivot point that it is a more costly process to separate the materials than the value of the materials that can be recovered,” says Craig Boswell, the co-founder HOBI International, an e-waste company with locations in Arizona, Illinois and Texas. “That applies not only to the iPad, but most of the designs that have internally sealed batteries.”

What’s so bad about removable batteries?

Gadgets don’t have to be designed this way. In 2014, Samsung’s flagship Galaxy S5 smartphone had a rechargeable battery that could be easily removed. My old PalmPilot used two AAA alkaline batteries that just pop out. Removable batteries could have helped Apple avoid the debacle in which it got caught slowing iPhones with worn-out batteries — and then had to offer discounted battery replacements to get back in our good graces.

The sealed approach makes electronics thinner, which the companies say we want — removable batteries require additional shielding that takes up space. Sealing in a battery with a life span of just a few years is also a way to force customers to upgrade, though tech giants have said they’re not baking planned obsolescence into their designs.

Apple wouldn’t answer my questions on its practices.

Apple, which does more for concerns like clean energy and hazardous chemicals than most big tech firms, is hardly alone in designing products with recycling challenges.

Last year, Greenpeace graded companies for their overall environmental impact. That included a grade for “product life extension,” a measure of how products are designed to be taken apart for repair, reuse and recycling. Most firms, including Apple, Microsoft and Samsung, got D’s in that category.

“Designing for repair makes a huge difference in the life cycle impact of the product,” says Gary Cook, a senior corporate campaigner at Greenpeace. Some tech companies, including Apple, have actively opposed so-called “right to repair” legislation that would require companies to share information on how to take apart products.

Apple has made some public commitments on recycling. It offers a take-back program, where it pays for products to be properly recycled at facilities it vets. Apple hasn’t disclosed how much of the material it creates that it takes back, but other recyclers tell me it’s likely a fraction. An industry-funded program called Call2Recycle last year collected 2.7 million pounds of lithium-ion batteries, which it said represents a “single digit percentage” of all the ones sold in the U.S.

Last year, Apple said it was working toward a “closed-loop” supply chain for its products, in which it will someday make products out of recycled or renewable materials only. It has also been working on robots that can recycle some of its products more quickly and safely than humans. Its latest, called Daisy, can disassemble 200 iPhones in an hour.

So far, there’s only one Daisy robot (with a second in the works), and Apple hasn’t said how many iPhones Daisy has recycled. Recycling companies that handle thousands of different kinds of electronics say they’re skeptical they’d reap much benefit from a robot that takes apart only one kind of thing.

Most people I spoke to in the recycling industry agree there’s a better fix: Go back to removable batteries.

“You can have very elegant design and high-energy density,” says Carl Smith, the CEO of Call2Recycle. “I don’t think those are two totally independent notions.”

So as a gadget reviewer, let me say this clearly to the tech industry: Give up your thin obsession. We’ll happily take electronics with a little extra junk in the trunk if it means we can easily replace batteries to make them last longer — and feel more confident they won’t end up igniting a recycling inferno.

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